KR100303473B1 - Pyrolysis gasification method and apparatus for hazardous waste - Google Patents

Abstract

The present invention relates to a method for treating pyrolysis and gasification of hazardous wastes, and more particularly, to high temperature heat of molten metal by high frequency induction in a state in which air required for combustion is blocked without separating hazardous waste such as hospital waste. The present invention relates to a method and apparatus for pyrolytic gasification of hazardous wastes that thermally decomposes hazardous wastes by endothermic reactions, thereby reducing the occurrence of liquids or solids, preventing the generation of toxic gases, and converting them into gases that can be used as energy sources. A pyrolysis gasification apparatus for hazardous waste comprising: a decomposing apparatus for decomposing input waste, introduced hazardous waste into gas by pyrolysis, and a post-treatment apparatus for post-processing pyrolyzed gas; The decomposing device includes a drying and pyrolysis furnace for evaporating a liquid substance present in the hazardous waste by preheating, a heating power supply for preheating the drying and pyrolysis furnace, and a hazardous waste having passed through the drying and pyrolysis furnace. An electrically induced metal melting furnace for supplying a heat source required for pyrolysis and maintaining at a constant high temperature, a high frequency induction apparatus for heating the electrically induced metal melting furnace by high frequency induction, and a pyrolysis for thermally decomposing hazardous wastes by the heat source of the electrically induced metal melting furnace. Indeed, by providing a pyrolysis gasification treatment apparatus and method characterized in that the configuration, it is a useful invention that can increase the decomposition efficiency, there is no concern of environmental pollution and can be put to practical use.

Description

Thermal Decomposion Process & Equipments of Toxic Organic Wastes

The present invention relates to a method for treating pyrolysis and gasification of hazardous wastes, and more particularly, to high temperature heat of molten metal by high frequency induction in a state in which air required for combustion is blocked without separating hazardous waste such as hospital waste. The present invention relates to a pyrolysis gasification method and apparatus for treating pyrolysis of hazardous wastes by pyrolyzing the hazardous wastes by endothermic reactions, thereby reducing the efficiency of liquids and solids, preventing the generation of toxic gases, and converting them into gases that can be used as energy sources.

In general, in incineration of wastes, the wastes are incinerated by exothermic reactions with high heat together with oxygen, but these are not well incinerated, resulting in finely divided fines of ash, and pollution for treating the various toxic gases generated by incineration separately. There were disadvantages such as the need for prevention facilities.

To this end, an apparatus and method for incineration by pyrolysis by adding a catalyst such as green grass or sawdust containing an appropriate amount of water are used, but it is impossible to completely incinerate due to the high temperature of only about 900 ° C., resulting in residue.

In addition, the entire gasification and some of the sludge should be sludged by the thermal decomposition, but not fully gasified and the solids or liquids are generated, which makes it difficult to process the price and has not been practically used.

In addition, complex hazardous wastes, including hospital wastes, usually contain moisture and are mixed with various substances, and must be incinerated by high temperature heat of 1400 ° C or higher, but it is difficult to put practical use of incinerators having a temperature of 1400 ° C or higher. There was a problem such as an increase in the price of the incinerator.

The present invention has been made to solve the above-mentioned problems, pyrolysis of hazardous wastes by endothermic reaction by high temperature heat of molten metal by high frequency heating in the state of blocking the air required for combustion without separating hazardous waste such as hospital waste. It is an object of the present invention to provide a pyrolysis gasification treatment method and apparatus for harmful wastes by improving decomposition efficiency, preventing generation of by-products such as liquids and solids or toxic components and easily treating the wastes.

In order to achieve the above object, the present invention is a pyrolysis gasification treatment method of hazardous wastes after gasification of hazardous wastes by pyrolysis, and then post-treatment, the high-frequency electricity in the state of cutting off the air required for combustion without separating the hazardous wastes It is an object of the present invention to provide a pyrolysis gasification treatment method for hazardous wastes characterized by pyrolysis gasification by endothermic reaction by heat of melting of metal melting furnace by induction.

In order to achieve the above object, the present invention is a hazardous waste consisting of an input device for injecting hazardous waste, a decomposition device for decomposing the introduced hazardous waste into gas by pyrolysis, and a post-treatment device for post-treatment of the pyrolyzed gas. In pyrolysis gasification apparatus of; The decomposing device includes a drying and pyrolysis furnace for evaporating a liquid substance present in the hazardous waste by preheating, a heating power supply for preheating the drying and pyrolysis furnace, and a hazardous waste having passed through the drying and pyrolysis furnace. A high frequency electric induction metal melting furnace for supplying a heat source necessary for pyrolysis and maintaining at a constant high temperature, a high frequency induction device for supplying high frequency power to the high frequency electric induction metal melting furnace, and pyrolyzing hazardous wastes by the heat source of the electric induction metal melting furnace. The pyrolysis chamber, to provide a pyrolysis gasification apparatus for hazardous wastes, characterized in that configured.

1 is a flow diagram of a pyrolysis process according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: decomposition device 2: post-processing device

3: input device 4: hazardous waste

10: Hopper 11: input room

12: injection hydraulic cylinder 14: shielded hydraulic cylinder

16: transfer hydraulic cylinder 18: drying and pyrolysis furnace

20: electric induction metal melting furnace 21: molten metal

22 pyrolysis chamber 24 cooling and cleaning tower

26: circulating water pump 28: blower

30: gas reservoir 32: transfer pump

34: wastewater treatment plant 36: heating power supply

38: high frequency induction apparatus 40: heating coil

Hereinafter, the present invention will be described in detail with reference to FIG. 1.

1 is a flowchart of a pyrolysis process according to an embodiment of the present invention.

First, the basic configuration of the present invention, the input device (3) for introducing the hazardous waste (4), the decomposition device (2) for decomposing the introduced hazardous waste (4) by gas thermal decomposition and the pyrolyzed gas after A pyrolysis gasification treatment apparatus for hazardous waste composed of a post-treatment apparatus (2) for treatment; The decomposition apparatus 1 includes a drying and pyrolysis furnace 18 for evaporating liquid substances present in the hazardous waste 4 by preheating, and a heating power supply device for preheating the drying and pyrolysis furnace 18. (36), a high frequency electric induction metal melting furnace (20) for supplying a heat source necessary for pyrolysis of the hazardous waste (4) that has passed through the drying and pyrolysis furnace (18) and maintaining it at a constant high temperature, and the electric induction metal melting furnace (20). And a pyrolysis chamber 22 which pyrolyzes the hazardous waste 4 by the heat source of the high frequency electric induction metal melting furnace 20.

When the present invention is described in more detail, the input device 3 is an input chamber 11 into which a hopper 10 into which toxic waste 4 is introduced and a toxic waste 4 introduced through the hopper 10 are loaded. ) And an input hydraulic cylinder 12 for moving the hazardous waste 4 to preheat the hazardous waste 4 loaded in the input chamber 11 and the input hydraulic cylinder 12 in a shielded state. A shield hydraulic cylinder 14 moving to the upper portion of the city, and a conveying hydraulic cylinder 16 for conveying the hazardous waste 4 loaded in the drying and pyrolysis furnace 18 of the decomposition device 1.

The decomposition apparatus 1 preheats the drying and pyrolysis furnace 18 and the drying and pyrolysis furnace 18 for evaporating the liquid substance present in the hazardous waste 4 introduced through the input apparatus 3 by preheating. And a high frequency electric induction metal melting furnace 20 for supplying a heat source required for pyrolysis of the hazardous waste 4 passed through the drying and pyrolysis furnace 18 and maintaining it at a constant high temperature. A pyrolysis chamber at an internal temperature of 1500 to 1650 ° C. for thermally decomposing hazardous wastes 4 by a high frequency induction device 38 for supplying a high frequency power to the electrically induced metal melting furnace 20 and the heat source of the electrically induced metal melting furnace 20. It consists of 22.

The post-treatment apparatus 2 is a cooling and washing tower 24 for absorbing harmful gases while cooling the gas decomposed in the pyrolysis chamber 22 of the decomposition apparatus 1 with washing water, and a blower for transferring the cleaned gas. (28), a gas storage tank (30) for storing gas transferred by the blower (28), a circulating water pump (26) for continuously circulating washing water in the cooling and washing tower (24), and concentration It is composed of a transfer pump 32 for transferring a portion of the washed water to the wastewater treatment plant (34).

Reference numeral 40 is a heating coil.

Hazardous wastes (4), such as pathogenic wastes, usually contain water, are mixed with various substances, contain pathogens, and thus are difficult to pretreat and are almost impossible to separate.

The present invention is a method of directly pyrolysis gasification without separating the hazardous waste (4), looking at the action and effect by the above-described configuration, the hazardous waste (4) is introduced through the hopper 10 to the lower input chamber ( 11) is loaded.

As the closing hydraulic cylinder 12 moves forward, the shielding hydraulic cylinder 14 moves upward, and the hazardous waste 4 loaded in the closing chamber 11 is transferred by the closing hydraulic cylinder 12 to be dried and pyrolyzed ( 18) is dropped in.

At this time, the input hydraulic cylinder 12 returns to its original position, the shield hydraulic cylinder 14 is lowered to block the air required for combustion, and thus the decomposition device 1 including the drying and pyrolysis furnace 18 becomes a lean air state. .

Drying and pyrolysis furnace 18 is heated to a temperature of 400 ° C. to 600 ° C. by the heat transfer method of the heating power supply 36, and a liquid substance such as moisture or solvent contained in the hazardous waste 4 is heated by this heat. As this evaporates, pyrolysis gas is first generated.

At this time, the reason for evaporating the liquid substance is to prevent explosion when the hazardous waste (4) is introduced into the electrically induced metal melting furnace (20) which is a subsequent process, and the temperature of the electrically induced metal melting furnace (20) rapidly decreases. It is to prevent that.

After the drying and pyrolysis proceeds, the transport hydraulic cylinder 16 is advanced, and the hazardous waste 4 dried and primary pyrolyzed is introduced into the high frequency electric induction metal melting furnace 20.

At this time, the electric induction metal melting furnace 20 is heated by the high frequency electric induction apparatus 38 to maintain a temperature of 1500 ° C to 1650 ° C.

Hazardous waste injected into the upper part of the high frequency electric induction metal melting furnace 20 receives heat by the heat source of the electric induction metal melting furnace 20 and pyrolysis occurs in the pyrolysis chamber 22 so that the gaseous solids that are not gasified and melted are molten metal ( Inorganic solids added to 21 and not gasified are vitrified while floating on the surface of the molten metal 21.

Of these molten materials, the vitrified molten material may be removed periodically, and the added molten metal 21 may be adjusted to adjust the amount of the molten metal 21 in the furnace of the induction metal melting furnace 20.

In this molten material, the vitrified inorganic material is cooled and released as general solid waste, and the solidified metal part is used for recycling.

The secondary pyrolyzed gas in the pyrolysis chamber 22 includes cracked gases of various properties and states depending on the properties of the pyrolyzed hazardous waste 4.

These decomposition gases are introduced into the cooling and washing tower 24 through the duct, cooled by the washing water, and harmful gases are absorbed into the clean gas.

That is, most of the substances dissolved and absorbed by water in the gas passing through the cooling and washing tower 24 are absorbed by the washing water, which is water, and then lowered to an appropriate temperature to be suitable for the next process, and are generated during pyrolysis such as H ₂ and CO. The gas is transferred to and stored in the gas storage tank 30 that collects and stores the gas by the blower 28.

The gas stored in the gas storage tank 30 may be recycled using a secondary heat source, or may be directly burned and removed when it is difficult to recycle or economical.

Therefore, the gas storage tank 30 may be configured as a combustion facility.

The cooling water is continuously circulated by the circulating water pump 26 to the cooling and washing tower 24, and some of the concentrated washing water, ie, harmful substances dissolved in the washing water of the cooling and washing tower 24, is transferred to the transfer pump 32. Is sent to the wastewater treatment plant 34.

As described above, the thermal decomposition gasification treatment method of the hazardous waste according to the present invention, pyrolysis by endothermic reaction by heat of the molten metal by electric high frequency induction in the state that the air required for combustion is blocked without separating the hazardous waste (4). It is characterized by gasification.

In addition, the pyrolysis gasification treatment method of the hazardous waste according to the present invention, characterized in that the liquid material present in the hazardous waste (4) is evaporated by preheating at 400 ℃ to 600 ℃ temperature before pyrolysis incineration by the heat of induction metal melting. It is.

As described above, the air required for combustion is blocked by the high temperature heat of the electrically induced metal melting furnace 20 by high frequency induction after evaporating the liquid material by relatively low temperature preheating without separating hazardous waste such as hospital waste. By pyrolyzing hazardous wastes in endothermic reactions, it can be gasified and then used as secondary heat sources or incinerated, and ungasified solids can be dissolved and sludged, causing no environmental pollution.

As described above, the present invention improves the decomposition efficiency by thermally decomposing harmful wastes by endothermic reaction by high temperature heat of molten metal by high frequency heating in a state in which air required for combustion is blocked without separating hazardous wastes such as hospital wastes. It is a useful invention that prevents the generation of by-products such as liquids and solids or toxic components, and is easy to be processed, thereby making it easy to use and converting them into gases that can be used as energy sources.

Claims (2)

(Correction) In the method of pyrolysis gasification of hazardous wastes, in which the hazardous wastes (4) are gasified by pyrolysis and after-treatment, the metal melting furnace by high frequency electric induction in a state in which the air required for combustion is blocked without separating the hazardous wastes. A pyrolysis gasification method for hazardous wastes, characterized in that pyrolysis gasification is carried out by an endothermic reaction by the heat of molten metal at a temperature of 1500 to 1650 ° C. The method for treating pyrolysis and gasification of hazardous wastes according to claim 1, wherein the liquid substance present in the hazardous wastes (4) is evaporated by preheating at a temperature of 400 ° C to 600 ° C prior to thermal decomposition incineration by the heat of induction metal melting. .